Class: ABNF

Inherits:
Object
  • Object
show all
Includes:
TSort
Defined in:
lib/abnf/abnf.rb,
lib/abnf/parser.rb,
lib/abnf/regexp.rb,
lib/abnf/grammar.rb,
lib/abnf/corerules.rb

Defined Under Namespace

Classes: ABNFError, Alt, Elt, Parser, Rep, Seq, Term, TooComplex, Var

Constant Summary collapse

NonRecursion =

X = a

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JustRecursion =

X = Y

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LeftRecursion =

X = Y a

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RightRecursion =

X = a Y

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SelfRecursion =

Y is X in JustRecursion, LeftRecursion and RightRecursion

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OtherRecursion =

otherwise

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EmptySet = 
Alt._new
EmptySequence = 
Seq._new
CoreRules =

taken from RFC 2234

ABNF.parse(<<'End', true) # taken from RFC 2234
ALPHA          =  %x41-5A / %x61-7A   ; A-Z / a-z
BIT            =  "0" / "1"
CHAR           =  %x01-7F ; any 7-bit US-ASCII character, excluding NUL
CR             =  %x0D ; carriage return
CRLF           =  CR LF ; Internet standard newline
CTL            =  %x00-1F / %x7F ; controls
DIGIT          =  %x30-39 ; 0-9
DQUOTE         =  %x22 ; " (Double Quote)
HEXDIG         =  DIGIT / "A" / "B" / "C" / "D" / "E" / "F"
HTAB           =  %x09 ; horizontal tab
LF             =  %x0A ; linefeed
LWSP           =  *(WSP / CRLF WSP) ; linear white space (past newline)
OCTET          =  %x00-FF ; 8 bits of data
SP             =  %x20
VCHAR          =  %x21-7E ; visible (printing) characters
WSP            =  SP /

Class Method Summary collapse

Instance Method Summary collapse

Constructor Details

#initializeABNF

Returns a new instance of ABNF.



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# File 'lib/abnf/abnf.rb', line 5

def initialize
  @names = []
  @rules = {}
  @start = nil
end

Class Method Details

.parse(desc, dont_merge_core_rules = false) ⇒ Object 



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# File 'lib/abnf/parser.rb', line 456

def ABNF.parse(desc, dont_merge_core_rules=false)
  grammar = ABNF.new
  Parser.new(grammar).parse(desc)
  grammar.merge(CoreRules) unless dont_merge_core_rules
  grammar
end

.regexp(desc, name = nil) ⇒ Object 



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# File 'lib/abnf/regexp.rb', line 8

def ABNF.regexp(desc, name=nil)
  ABNF.regexp_tree(desc, name).regexp
end

.regexp_tree(desc, name = nil) ⇒ Object 



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# File 'lib/abnf/regexp.rb', line 12

def ABNF.regexp_tree(desc, name=nil)
  ABNF.parse(desc).regexp_tree(name)
end

Instance Method Details

#[](name) ⇒ Object 



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# File 'lib/abnf/abnf.rb', line 31

def [](name)
  @rules[name]
end

#[]=(name, rhs) ⇒ Object 



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# File 'lib/abnf/abnf.rb', line 35

def []=(name, rhs)
  @names << name unless @rules.include? name
  @rules[name] = rhs
end

#add(name, rhs) ⇒ Object 



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# File 'lib/abnf/abnf.rb', line 40

def add(name, rhs)
  if @rules.include? name
    @rules[name] |= rhs
  else
    @names << name
    @rules[name] = rhs
  end
end

#delete_unreachable!(starts) ⇒ Object 



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# File 'lib/abnf/abnf.rb', line 59

def delete_unreachable!(starts)
  rules = {}
  id_map = {}
  stack = []
  starts.each {|name|
    next if id_map.include? name
    each_strongly_connected_component_from(name, id_map, stack) {|syms|
      syms.each {|sym|
        rules[sym] = @rules[sym] if @rules.include? sym
      }
    }
  }
  @rules = rules
  @names.reject! {|name| !@rules.include?(name)}
  self
end

#delete_useless!(starts = nil) ⇒ Object 



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# File 'lib/abnf/abnf.rb', line 76

def delete_useless!(starts=nil)
  if starts
    starts = [starts] if Symbol === starts
    delete_unreachable!(starts)
  end

  useful_names = {}
  using_names = {}

  @rules.each {|name, rhs|
    useful_names[name] = true if rhs.useful?(useful_names)
    rhs.each_var {|n|
      (using_names[n] ||= {})[name] = true
    }
  }

  queue = useful_names.keys
  until queue.empty?
    n = queue.pop
    next unless using_names[n]
    using_names[n].keys.each {|name|
      if useful_names[name]
        using_names[n].delete name
      elsif @rules[name].useful?(useful_names)
        using_names[n].delete name
        useful_names[name] = true
        queue << name
      end
    }
  end

  rules = {}
  @rules.each {|name, rhs|
    rhs = rhs.subst_var {|n| useful_names[n] ? nil : EmptySet}
    rules[name] = rhs unless rhs.empty_set?
  }

  #xxx: raise if some of start symbol becomes empty set?

  @rules = rules
  @names.reject! {|name| !@rules.include?(name)}
  self
end

#each(&block) ⇒ Object 



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# File 'lib/abnf/abnf.rb', line 53

def each(&block)
  @names.each {|name|
    yield name, @rules[name]
  }
end

#include?(name) ⇒ Boolean

Returns:

  • (Boolean) 


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# File 'lib/abnf/abnf.rb', line 49

def include?(name)
  @rules.include? name
end

#merge(g) ⇒ Object 



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# File 'lib/abnf/abnf.rb', line 25

def merge(g)
  g.each {|name, rhs|
    self.add(name, rhs)
  }
end

#namesObject 



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# File 'lib/abnf/abnf.rb', line 21

def names
  @names.dup
end

#regexp(name = start_symbol) ⇒ Object 



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# File 'lib/abnf/regexp.rb', line 16

def regexp(name=start_symbol)
  regexp_tree(name).regexp
end

#regexp_tree(name = nil) ⇒ Object

Convert a recursive rule to non-recursive rule if possible. This conversion is not perfect. It may fail even if possible. More work (survey) is needed.



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# File 'lib/abnf/regexp.rb', line 24

def regexp_tree(name=nil)
  name ||= start_symbol
  env = {}
  each_strongly_connected_component_from(name) {|ns|
    rules = {}
    ns.each {|n|
	rules[n] = @rules[n]
    }

    resolved_rules = {}
    updated = true
    while updated
	updated = false
	ns.reject! {|n| !rules.include?(n)}

	rs = {}
	ns.reverse_each {|n|
 e = rules[n]
        if !e
          raise ABNFError.new("no rule defined: #{n}")
        end
 rs[n] = e.recursion(ns, n)
 if rs[n] & OtherRecursion != 0
   raise TooComplex.new("too complex to convert to regexp: #{n} (#{ns.join(', ')})")
 end
	}

	ns.reverse_each {|n|
 e = rules[n]
 r = rs[n]
 if r & SelfRecursion == 0
   resolved_rules[n] = e
   rules.delete n
   rules.each {|n2, e2| rules[n2] = e2.subst_var {|n3| n3 == n ? e : nil}}
   updated = true
   break
 end
	}
	next if updated

	# X = Y | a
	# Y = X | b
	# => 
	# Y = Y | a | b
	ns.reverse_each {|n|
 e = rules[n]
 r = rs[n]
 if r & JustRecursion != 0 && r & ~(NonRecursion|JustRecursion) == 0
   e = e.remove_just_recursion(n)
   resolved_rules[n] = e
   rules.delete n
   rules.each {|n2, e2| rules[n2] = e2.subst_var {|n3| n3 == n ? e : nil}}
   updated = true
   break
 end
	}
	next if updated

	# X = X a | b
	# =>
	# X = b a*
	ns.reverse_each {|n|
 e = rules[n]
 r = rs[n]
 if r & LeftRecursion != 0 && r & ~(NonRecursion|JustRecursion|LeftRecursion|SelfRecursion) == 0
   e = e.remove_left_recursion(n)
   resolved_rules[n] = e
   rules.delete n
   rules.each {|n2, e2| rules[n2] = e2.subst_var {|n3| n3 == n ? e : nil}}
   updated = true
   break
 end
	}
	next if updated

	# X = a X | b
	# =>
	# X = a* b
	ns.reverse_each {|n|
 e = rules[n]
 r = rs[n]
 if r & RightRecursion != 0 && r & ~(NonRecursion|JustRecursion|RightRecursion|SelfRecursion) == 0
   e = e.remove_right_recursion(n)
   resolved_rules[n] = e
   rules.delete n
   rules.each {|n2, e2| rules[n2] = e2.subst_var {|n3| n3 == n ? e : nil}}
   updated = true
   break
 end
	}
	next if updated
    end

    if 1 < rules.length
	raise TooComplex.new("too complex to convert to regexp: (#{ns.join(', ')})")
    end

    if rules.length == 1
	n, e = rules.shift
	r = e.recursion(ns, n)
	if r & OtherRecursion != 0
 raise TooComplex.new("too complex to convert to regexp: #{n} (#{ns.join(', ')})")
	end
	if r == NonRecursion
 resolved_rules[n] = e
	else
 # X = a X | b | X c
 # =>
 # X = a* b c*
 left, middle, right = e.split_recursion(n)
 resolved_rules[n] = Seq.new(Alt.new(left).rep, Alt.new(middle), Alt.new(right).rep)
	end
    end

    class << resolved_rules
      include TSort
	alias tsort_each_node each_key
	def tsort_each_child(n, &block)
 self[n].each_var {|n2|
   yield n2 if self.include? n2
 }
	end
    end

    resolved_rules.tsort_each {|n|
      env[n] = resolved_rules[n].subst_var {|n2|
 unless env[n2]
   raise Exception.new("unresolved nonterminal: #{n}") # bug
 end
 env[n2]
	}
    }
  }
  env[name].regexp_tree
end

#start_symbolObject

Raises:

  • (StandardError) 


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# File 'lib/abnf/abnf.rb', line 15

def start_symbol
  return @start if @start
  raise StandardError.new("no symbol defined") if @names.empty?
  @names.first
end

#start_symbol=(name) ⇒ Object 



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# File 'lib/abnf/abnf.rb', line 11

def start_symbol=(name)
  @start = name
end

#tsort_each_child(name) ⇒ Object 



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# File 'lib/abnf/abnf.rb', line 130

def tsort_each_child(name)
  return unless @rules.include? name
  @rules.fetch(name).each_var {|n| yield n}
end

#tsort_each_node(&block) ⇒ Object 



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# File 'lib/abnf/abnf.rb', line 127

def tsort_each_node(&block)
  @names.each(&block)
end